The Role Of Pulmonary Macrophages In The Pathogenesis Of An Acute Exacerbation Of Chronic Asthma
Funder
National Health and Medical Research Council
Funding Amount
$495,710.00
Summary
We will examine the role of lung defence cells, known as macrophages, in triggering the inflammation of acute severe asthma. The experimental work will use unique mouse models of mild chronic asthma and of an acute exacerbation of the illness, which have been developed in our laboratories. We will study the mechanisms of activation of the asthmatic response and assess whether treatment with drugs that suppress the function of macrophages can help to control steroid-resistant exacerbations.
Is Lyn Tyrosine Kinase A Predictor Of Severe, Persistent Multi-trait Asthma And Allergy?
Funder
National Health and Medical Research Council
Funding Amount
$250,250.00
Summary
Asthma is a major health problem in Australia affecting over 10% of the population at any time, and more than 25% of the population at one stage in their lives. Although the public perception is that asthma treatments have improved management of the disease, more than 700 people die from severe asthma each year and hospitalisation from exacerbation (sudden worsening) is one of the most costly components of the health care burden in Australia and most developed countries. Currently there are no m ....Asthma is a major health problem in Australia affecting over 10% of the population at any time, and more than 25% of the population at one stage in their lives. Although the public perception is that asthma treatments have improved management of the disease, more than 700 people die from severe asthma each year and hospitalisation from exacerbation (sudden worsening) is one of the most costly components of the health care burden in Australia and most developed countries. Currently there are no molecular markers that can predict who will get severe asthma and there are no specific treatments to reverse severe exacerbations. This project will use advanced molecular biology methods to examine whether a molecule called Lyn may be important. The Lyn tyrosine kinase is a member of a family of genes that participate in transmitting information across the cell membrane. This enzyme is expressed in blood cells, and is involved in mechanisms pertaining to infection, immunity and allergic responses. To further our understanding of the role of this enzyme in the context of the whole animal, we have generated mice that are unable to make Lyn protein (Lyn-deficient mice). In animal models of asthma we know that if Lyn is not functioning, severe and persistent asthma develops. We have also made preliminary studies that suggest that Lyn does not work properly in people who have been admitted to the emergency ward with life threatenting asthma. In this study we will examine in detail the role that Lyn plays in asthma and allergy, and we intend to identify the pathways that give rise to asthma in Lyn-deficient mice. We will also investigate our hypothesis that Lyn activity may be reduced or disregulated in patients with asthma and allergy. This research should lead to better predictive markers for severe asthma and also to improved and specific treatments.Read moreRead less
Macrophages, Sugars And Innate Immunity In Chronic Lung Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$413,150.00
Summary
This project is about a new idea to treat severe asthma, chronic obstructive lung disease (COPD) and sudden worsening of these diseases (exacerbations). Asthma and COPD are very common. Asthma afflicts approximately 10 % of all Australians and kills approximately 700 annually. COPD will be the third most common cause of death worldwide by 2010 (WHO) and costs more that $ AUS 10 Billion annually. The highest risk of death and greatest costs are associated with severe asthma and exacerbations. Our ....This project is about a new idea to treat severe asthma, chronic obstructive lung disease (COPD) and sudden worsening of these diseases (exacerbations). Asthma and COPD are very common. Asthma afflicts approximately 10 % of all Australians and kills approximately 700 annually. COPD will be the third most common cause of death worldwide by 2010 (WHO) and costs more that $ AUS 10 Billion annually. The highest risk of death and greatest costs are associated with severe asthma and exacerbations. Our idea, which is based on extensive animal data, is that these diseases can be treated by blocking the activity of proteins that allow a cell called the lung macrophage to grow, become activated, proliferate and survive. These proteins are called CSF-1 and GM-CSF and they belong to a larger class of proteins called colony stimulating factors (CSFs) Macrophages are important because they can rapidly respond to bacteria, viruses and fungi that can infect the lungs of asthma and COPD patients. Infections cause exacerbations. Normally, macrophages release a number of molecules called mediators that rouse a strong defensive reaction- a process called innate immunity. For example macrophages signal for a cell type called the neutrophil, which is a very efficient bacteria killer, to flood into the lung. However, these same cells can cause serious lung damage if the response is too strong or persistent. Macrophages and neutrophils need CSFs to work properly so blocking CSFs prevents lung damage. Although we now already know that blocking CSFs can prevent and reverse lung inflammation we still need to know a great deal more in order to know if this approach will be useful to treat people in the future. Our project is therefore all about understanding the fine detail of how CSFs can damage the lung. The importance of the project is that our work may lead to entirely new, and much more effective, treatments for people suffering from asthma and COPD.Read moreRead less